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    • 3. 发明授权
    • Power saving decoder architecture
    • 省电解码器架构
    • US08718129B2
    • 2014-05-06
    • US11934394
    • 2007-11-02
    • Hsi-Jung WuIonut HristodorescuJames Oliver Normile
    • Hsi-Jung WuIonut HristodorescuJames Oliver Normile
    • H04N7/12
    • H04N19/436H04N19/103H04N19/156H04N19/176H04N19/42H04N19/44H04N19/61H04N19/88
    • A method and system are provided for decoding coded video data by turning off or not loading at least one functional unit or functional subunit of the decoder while decoding a portion of the coded video data. A schedule may be created prior to substantive decoding and then the schedule may be used to decode coded video data. The coded video data may be reordered based on the functional units or subunits the portions of the coded video data need for decoding. The portions of the coded video data are reordered into their original order in an output buffer after being decoded. The decoder may determine which functional units or subunits are needed for decoding based on administration information included with the coded video data. The decoder may decode portions of the coded video data in parallel.
    • 提供了一种方法和系统,用于通过在对一部分编码视频数据进行解码的同时关闭或不加载解码器的至少一个功能单元或功能子单元来解码编码的视频数据。 可以在实质性解码之前创建调度,然后可以使用调度来解码经编码的视频数据。 编码视频数据可以基于编码视频数据部分需要解码的功能单元或子单元重新排序。 在解码之后,将编码的视频数据的部分重新排序成输出缓冲器中的原始顺序。 解码器可以基于包括在编码视频数据中的管理信息来确定需要哪个功能单元或子单元进行解码。 解码器可以并行地解码编码视频数据的部分。
    • 5. 发明授权
    • Joint bandwidth detection algorithm for real-time communication
    • 用于实时通信的联合带宽检测算法
    • US08638851B2
    • 2014-01-28
    • US12646065
    • 2009-12-23
    • Hyeonkuk JeongXiaosong ZhouJoe AbuanXiaojin ShiHsi-Jung WuJames Oliver Normile
    • Hyeonkuk JeongXiaosong ZhouJoe AbuanXiaojin ShiHsi-Jung WuJames Oliver Normile
    • H04N7/12
    • H04N7/148H04N19/115H04N19/166H04N19/192H04N19/196H04N19/197H04N19/46
    • A video coding system and method for increasing a transmitted output bit rate of a video encoding system by altering the content of the bit stream. A video encoder may receive a coding mode signal from a computer application for coding source video data, the coding mode signal indicating a target bit rate having a risk factor related to transmission error associated to the target bit rate. The coded bitstream may be modified based on the risk factor indicated in the coding mode signal. A modified coded bitstream may be outputted at the target bit rate and at a reduced coding efficiency, and the channel may be tested for transmission errors. Based on the test results, a revised coding mode signal indicating the same target bit rate, but a revised risk factor may be provided. The coded bitstream may be revised by removing the modifications previously made to the coded bitstream and a revised coded bitstream having greater coding efficiency may be output at the target bit rate.
    • 一种用于通过改变比特流的内容来增加视频编码系统的发送的输出比特率的视频编码系统和方法。 视频编码器可以接收来自用于编码源视频数据的计算机应用的编码模式信号,编码模式信号指示具有与目标比特率相关联的传输错误的风险因子的目标比特率。 可以基于编码模式信号中指示的危险因素来修改编码比特流。 可以以目标比特率和降低的编码效率输出经修改的编码比特流,并且可以测试该信道的传输错误。 基于测试结果,可以提供指示相同目标比特率的修订的编码模式信号,但是可以提供经修订的风险因子。 可以通过去除先前对编码比特流进行的修改来修改编码比特流,并且可以以目标比特率输出具有更大编码效率的修改编码比特流。
    • 6. 发明授权
    • Scene-aware automatic-exposure control
    • 场景感知自动曝光控制
    • US08493501B2
    • 2013-07-23
    • US13292353
    • 2011-11-09
    • Douglas PriceXiaosong ZhouHsi-Jung WuJames Oliver Normile
    • Douglas PriceXiaosong ZhouHsi-Jung WuJames Oliver Normile
    • H04N5/238
    • H04N5/2351
    • A scene-aware auto-exposure control process stabilizes changes in a camera's auto-exposure settings so as to reduce lighting and color flicker during image capture operations. A metric, referred to as the Modified Adjusted Luminance (MAL) metric, is defined to remain relatively constant as long as the lighting of the scene being captured remains relatively constant. Thus, scene changes such as an object moving into, out of, or around in a scene do not significantly affect the MAL metric's value and do not, therefore, trigger an exposure adjustment. Once the MAL metric indicates a scene's lighting is stable, the camera's auto-exposure operation may be suppressed. As long as incoming frames indicate a stable lighting condition (based on the MAL metric), auto-exposure operation may remain suppressed. When incoming frames result in a substantially different MAL over a specified number of frames, auto-exposure operation may be restored.
    • 场景感知自动曝光控制过程可稳定照相机自动曝光设置的变化,以减少图像拍摄过程中的照明和颜色闪烁。 被称为修正调整亮度(MAL)度量的度量被定义为保持相对恒定,只要被捕获的场景的照明保持相对恒定。 因此,诸如移动到场景中的,离开或在场景中的对象的场景改变不会显着影响MAL度量的值,因此不会触发曝光调整。 一旦MAL指标表明场景的照明是稳定的,则可能会抑制相机的自动曝光操作。 只要进入的帧指示稳定的照明条件(基于MAL度量),自动曝光操作可能仍然被抑制。 当输入帧在指定数量的帧上导致基本上不同的MAL时,可以恢复自动曝光操作。
    • 7. 发明申请
    • SCENE-AWARE AUTOMATIC-EXPOSURE CONTROL
    • 场景自动曝光控制
    • US20110298965A1
    • 2011-12-08
    • US12793848
    • 2010-06-04
    • Douglas PriceXiaosong ZhouHsi-Jung WuJames Oliver Normile
    • Douglas PriceXiaosong ZhouHsi-Jung WuJames Oliver Normile
    • H04N5/235
    • H04N5/2351
    • A scene-aware auto-exposure control process stabilizes changes in a camera's auto-exposure settings so as to reduce lighting and color flicker during image capture operations. A metric, referred to as the Modified Adjusted Luminance (MAL) metric, is defined to remain relatively constant as long as the lighting of the scene being captured remains relatively constant. Thus, scene changes such as an object moving into, out of, or around in a scene do not significantly affect the MAL metric's value and do not, therefore, trigger an exposure adjustment. Once the MAL metric indicates a scene's lighting is stable, the camera's auto-exposure operation may be suppressed. As long as incoming frames indicate a stable lighting condition (based on the MAL metric), auto-exposure operation may remain suppressed. When incoming frames result in a substantially different MAL over a specified number of frames, auto-exposure operation may be restored.
    • 场景感知自动曝光控制过程可稳定照相机自动曝光设置的变化,以减少图像拍摄过程中的照明和颜色闪烁。 被称为修正调整亮度(MAL)度量的度量被定义为保持相对恒定,只要被捕获的场景的照明保持相对恒定。 因此,诸如移动到场景中的,离开或在场景中的对象的场景改变不会显着影响MAL度量的值,因此不会触发曝光调整。 一旦MAL指标表明场景的照明是稳定的,则可能会抑制相机的自动曝光操作。 只要进入的帧指示稳定的照明条件(基于MAL度量),自动曝光操作可能仍然被抑制。 当输入帧在指定数量的帧上导致基本上不同的MAL时,可以恢复自动曝光操作。